Industry 4.1. Группа авторов
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Название: Industry 4.1

Автор: Группа авторов

Издательство: John Wiley & Sons Limited

Жанр: Техническая литература

Серия:

isbn: 9781119739913

isbn:

СКАЧАТЬ sensor is available at a very low cost and is extremely durable. However, it is important to note that the unrelated magnetic objects have to be kept away from the operating environment since the Hall current sensor is vulnerable to magnetic fields.

      Vibration: Accelerometer

      Vibration describes the state of an object moving repetitively back/forward, right/left, or up/down, and usually can be expressed by the physical quantity of acceleration, which is the changes in velocity divided by time. Machining vibration and noise, or the so‐called chatter, are usually generated from reciprocating motions of the cutting processes, mechanical malfunction, or component wear, which are undesirable since the irregular and random behavior may lead to severe fatigue of the machine structure and further deteriorate machine performance, such as the unbalanced forces of rotating parts. These failure incidents sometimes may not directly happen in motor power or current but in vibration. Therefore, the vibration is especially crucial to machine status monitoring. In a word, vibration data are useful for monitoring the rotation quality of a spindle and its critical components (such as bearings inside the spindle) that affect cutting and product quality the most.

      In addition, the accelerometer provides good data quality with low‐loss signal in forms of high frequency and transient response. Some critical characteristics of high‐frequency can be detected and outputted in linear waveforms within microseconds. However, this high‐sensitivity property is also prone to obtaining erroneous data that needs to be de‐noised. For example, the installation position and the use of cutting fluid may affect the accuracy of the vibration signal.

Schematic illustration of installation of accelerometer by stud mounting.

      Note that, there are various installation types for the accelerometer: probe tips, direct adhesive, adhesive pad, magnetic base, stud mounting, or insulating flange. The most recommended approach is stud mounting, which possesses the best relative sensitivity and highest frequency response among all these fixing types. Various types and sizes for studs and captive screws with mounting threads are all available. By mounting the stud or screw to fix the accelerometer on a specific location can improve repeatability of signal and reduce collection errors. Thus, the instructive nature is another critical issue to be taken into deep consideration once the desired vibration source is on the cutting tool.

      Once the direction of the accelerometer’s receiving surface is not orthogonal with one of the specific axes, the collected signals may contain multi‐axis characteristics, and that will increase the difficulty of analyzation.

      Temperature: Thermal Couple

      The machining temperature changes not only affect equipment operation and machining performance but can also reflect on product quality and component status during processing.

      For example, the measurement of temperature in the cutting zone has high correlation with machining quality. In general, cutting temperature gets higher along with the increase of cutting speed, feed rates, and depths due to the frictional heat generated on the cutting tool‐workpiece interface. This increased temperature can soften the workpiece so that material can be removed from the workpiece easily; however, higher temperature might also accelerate tool wears.

      Thermal couple is the most commonly used sensor to measure the temperature of target objects by directly converting heat into electricity through thermoelectric effect, which creates the temperature‐dependent voltage when the temperature difference exists between two different semiconductors inside the sensor.

Schematic illustration of installation of thermal couple.

      When the quality of oil or grease for the rolling‐element bearings deteriorates, insufficient lubricant quantity and viscosity may increase operation temperature and cause bearing or the spindle malfunctions. Temperature information can be a very wide‐range of temperature up to thousand degrees at a low sampling rate compared to other sensing techniques. Thus, more storage space and de‐noising methods for filtering the signals are not necessary.

      Another challenge is that sensing the real temperature of semi‐product directly during machining is rather difficult than sensing it on the equipment or components since the installation on the real СКАЧАТЬ